RU2076166C1 - Device for heating and melting of viscous materials - Google Patents

Abstract

FIELD: construction; applicable in repairs of roofing for heating and melting of bitumen. SUBSTANCE: device for heating and melting of viscous materials has body, removable vessel installed with the help of supporting sides with clearance. Removable vessel has end discharge device and cover with loading hatch. Located under vessel bottom are quartz tubes with filament. Inner surface of body in the base are bent with concave part facing the side of vessel bottom. Body is mounted on running gear which consists of tubular framework with handle and wheels. EFFECT: higher efficiency. 2 cl, 2 dwg

Description

 The invention relates to construction, in particular to devices for heating and melting viscous materials, mainly bitumen, as well as supplying it to the place of work.

 Known installation I.M. Borodenko for the preparation and application of waterproofing materials such as mastics, containing a trailer with a frame, a container with a pipeline, a suction pipe, an exhaust valve, a pump with an electric motor, hoses. A paddle mixer is installed directly in the tank, made with holes in the body, and heaters are located under the bottom of the tank, each of which is placed in a reflector having a cross-section in the form of a hyperbola facing the concave part towards the bottom of the tank (ed. St. USSR N 285021, E 01 C 19/00 10/29/1970).

 A disadvantage of the known installation is the need for frequent cleaning of the piping system (internal line and external hoses with spray guns) with special flushing material, and the complicated design of heaters. All this indicates high labor costs for maintenance. In addition, this installation is completely unsuitable for use in the repair of roofs of increased number of storeys, as it is intended mainly for ground movement and the application of waterproofing materials, in particular pavements.

The closest in technical essence to the claimed object is an electric boiler containing a container mounted on a support with a temperature regulator, an end drain valve, a lid and a thermally insulating casing, heating elements with box-shaped protective barriers horizontally located in the lower part of the vessel, a bitumen pump, and an automatic control system. The bottom of the tank is made with openings parallel to it, and the box fencing is open at the bottom and connected by the ends of the walls with the edges of the corresponding openings in the bottom of the tank, forming a zigzag profile in the cross section of the last, the ratio of the total volume of box fencing to the volume of the tank is 0.03 0.05 the volume of the tank, and the ends of the fences on the side of the drain valve are located relative to the wall of the tank with a gap, and the tank is removable, has sides supported on a thermally insulating casing and located in the latter with a gap equal to 1.5 - 2.0 of the thickness of its wall. (Aut. St. USSR N 1296658, M. Cl. ⁴ E01C 19/08, 03.15.87).

 A disadvantage of the known device is that it is bulky. In addition, it is characterized by the complexity of installation and dismantling of the structure, increased weight. The presence of a system of internal pipelines creates the likelihood of clogging and the need for periodic cleaning with flushing material. In addition, the presence of a piping system inside the tank, box-shaped enclosures for heating elements makes it difficult to clean the tank, and it takes a lot of time to dismantle it (removing the pump from the cover, disconnecting the piping system, electrical wires, etc.). The stationary position of the electric boiler and the zigzag profile of the bottom of the tank make it difficult to completely drain bitumen from the tank, which requires additional cleaning work. The known device is not reliable during operation due to the frequent failure of the heating elements (burn out), which, being in box fences, experience increased electrical loads, and the openness of the latter from below, together with the gap between the casing and the container, makes it possible for bitumen to get to the heating elements, so how gaskets, being in the zone of high temperatures, are deformed and quickly wear out, which reduces the degree of insulation of the heaters.

 The objective of the invention is to reduce labor costs for maintenance and energy consumption of the device, increasing its reliability.

 This object is achieved in that a device for heating and melting viscous materials, comprising a housing, a removable container mounted with support flanges and positioned therein with a gap, with an end drain device with a lid with a loading hatch, is equipped with a running gear, the front pair of wheels of which is remote from the center of gravity of the device at a distance of no more than 100 m, the heating elements are installed in the housing under the bottom of the tank and are made in the form of quartz tubes with a filament, and the inner surface of the housing is based and made curved and facing the concave part towards the bottom of the tank.

 The presence in the device for heating and melting viscous materials of the running gear with the possibility of tipping the device makes it convenient to operate due to the mobility that it acquires, labor costs for maintenance are reduced. The implementation of the chassis with the possibility of tipping the device provides a complete discharge of the molten viscous, therefore, there is no need for special cleaning and rinsing with cleaning materials, the process of pouring viscous (in particular bitumen) is simplified.

 The installation of heating elements in the housing, and not in the container for heating and melting viscous, eliminates the ingress of this material to them and thereby ensures their reliability during operation. In addition, this arrangement of the heating elements provides heat access to the tank in all directions from below and from the sides through the gaps between the tank and the housing.

The implementation of the heating elements in the form of quartz tubes with a filament provides uniform heating of a viscous container over the base area by eliminating the differences in thermal radiation from the filament, which is aligned due to the presence of quartz tubes. In addition, this embodiment of the heating elements in conjunction with the curved surface of the base of the housing provides a quick set of temperature by the device in a predetermined temperature mode (150 190 ^o C), since the heat flux coming from the heating elements, reflected from the surface of the base of the housing, washes quartz tubes and sent mainly to the bottom of the tank, which reduces the energy consumption of the device. The location of the heating elements in the housing under the bottom of the tank eliminates the binding of binder (bitumen) to the heating elements, which makes the device reliable in operation and greatly simplifies the design of electric heaters, reducing maintenance costs.

 Curved execution of the surface of the base of the housing increases the effect of thermal effects from the heating elements to the bottom of the tank. The main advantage of the proposed device over the known ones is that it is prefabricated, as it consists of three parts, which allows them to be transported manually to any place where the repair works are mainly carried out on the roof.

 In FIG. 1 longitudinal section; in FIG. 2, section AA in FIG. one.

 A device for heating viscous materials, in particular bitumen, contains a housing 1, inside of which a removable container 2 with a gap 3 is installed, equipped with support sides 4, with an end drain device 5, a cover 6 and a loading hatch 7. Under the bottom of the tank 2 in the housing 1 are located heating elements made in the form of quartz tubes 8 with a filament 9 of nichrome wire with a diameter of 0.8 or 1.0 mm The inner surface of the base of the body is made curved, either spherical, or having an obtuse angle in cross section, made of galvanized steel with a diameter of 0.8 mm or an aluminum sheet with a diameter of 0.5 or 0.8 mm. The base of the housing 1 is turned with the concave part toward the bottom of the tank 2. The output ends of the filament spiral 9 are displayed on the panel 10 located on the housing 1 from the end, and are connected in series with the star terminals to the output terminals 11. The housing 1 is mounted on the chassis comprising a tubular frame 12 with a handle 13 mounted on wheels 14, the front pair of which is located closer to the center of gravity of the device (not more than 100 mm) to ensure its tipping over with minimal effort. The housing 1, the container 2 and the tubular frame 12 are mutually fixed by the coupling bolts 15.

 The device operates as follows.

A device for heating and melting, for example, disassembled bitumen (in parts) is manually lifted to the roof. Then they are assembled in the following sequence: the housing 1 is hung on the tubular frame 12, a container 2 is inserted into it and all these parts are fastened (fixed relative to each other) with tie bolts 15. The assembly time of the device is no more than 30 minutes. Through the hatch 7, a lump of bitumen in the amount of 90 kg is loaded into the container 2. At the end of the download, the device is connected to an alternating current network with a voltage of 220 W. When the device is turned on, quartz tubes 8 with a filament spiral 9 begin to radiate thermal energy, which is reflected from the inner surface of the housing 1 and is directed mainly to the bottom of the container 2. In this case, the heat flux through the gaps 3 also washes the walls of the container 2. The working temperature of bitumen is 180 ^o C, achieved in 1 h 20 min. Liquid bitumen is poured through the end drain device 5 by turning the handle 13 up. As you use bitumen, and therefore, when lowering the load level, the device is filled with new portions of bitumen.

 A device for heating and melting viscous materials is characterized by ease of execution, reliability during operation.

 The device is also characterized by small dimensions (1300x650 mm), light weight (chassis 20 kg; capacity 40 kg; housing 28 kg), low energy consumption of 15 kW, which allows it to be used in any place, mainly on high-rise roofs with constant readiness for action .

Claims (2)

 1. A device for heating and melting viscous materials, comprising a housing installed in it with a gap using the support flanges, a removable container with an end drain device, a cover with a loading hatch, heating elements, characterized in that it is equipped with a running gear, the front pair of wheels of which removed from the center of gravity of the device to a distance of not more than 100 mm, the inner surface of the body at the base is curved and facing the concave part toward the bottom of the tank, and in the cavity between the bottom of the tank and the inside renney surface of the enclosure has heating elements formed in a quartz tube filament.  2. The device according to claim 1, characterized in that the inner surface of the housing in cross section has the shape of an obtuse angle.

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